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Magnetic Poles • Magnetic forces are produced by magnetic poles. • Every magnet has both a North and South pole. • Like poles repel, unlike poles attract. What Causes a Magnetic Field? • Magnetic fields are produced by moving electric charges. • Electrons in atoms both orbit and “spin”. • In most materials, electron spin contributes more to magnetism than electron orbital motion. • Electrons are (very) tiny magnets. What Causes a Magnetic Field? • Electrons with opposite spins cancel each other’s magnetic fields. • Electrons with spins aligned strengthen each other’s magnetic fields. • Iron, nickel, cobalt (and a few other elements) commonly have some aligned electrons. • An iron atom is a (very) tiny magnet. Magnetic Domains • A region in which many atoms have their magnetic fields aligned is called a magnetic domain. How Magnets Attract • A magnet near an unmagnetized piece of iron causes: – Growth of aligned domains in the iron – Rotation of domains to align with the magnetic field – Attractive magnetic force on the iron • This causes the iron to become temporarily magnetized Electric Currents & Magnetism • Since moving charges create magnetic fields, an electric current creates a magnetic field. • A coil of wire can concentrate the magnetic field and create an electromagnet. Magnets have been known for centuries. The Chinese and Greeks knew about the “magical” properties of magnets. The ancient Greeks used a stone substance called “magnetite.” They discovered that the stone always pointed in the same direction. Later, stones of magnetite called “lodestones” were used in navigation. William Gilbert, an English physician, first proposed in 1600 that the earth itself is a magnet, and he predicted that the Earth would be found to have magnetic poles. What is Magnetism? Magnetism is the force of attraction or repulsion of a magnetic material due to the arrangement of its atoms, particularly its electrons. The ends of a magnet are where the magnetic effect is the strongest. These are called “poles.” Each magnet has 2 poles – 1 north, 1 south. The ends of a magnet are where the magnetic effect is the strongest. These are called “poles.” Each magnet has 2 poles – 1 north, 1 south. Objective • Objective: Students will be able to describe the basic properties of magnets and electromagnets and they can produce an electric current. • EQ: Can I describe the basic properties of magnets and the effects of earth’s magnetic field? Properties of Magnets • Magnet: any material that affects iron or material containing iron. • 3 Properties of magnets 1. All magnets have 2 poles N/S 2. Exert forces on each other 3. Surrounded by a magnetic field Magnetic Forces • Magnetic Poles: points on a magnet that have opposite magnetic properties. (north and south) Poles are always in pairs • Magnetic forces: force of attraction or repulsion generated by moving or spinning electric charges. • N to N or S to S together repel each other • N to S attract each other Causes of Magnetism • Whether a material is magnetic or not depends on the material’s atoms. • In material such as iron, nickel, and colbalt, groups of atoms are in tiny areas called domains. • The arrangement of domains in an object determines whether the object is magnetic. • When domains move the magnet is demagnetized or looses its magnetic properties. How to lose Magnetic Properties 1. Dropping or Hitting it HARD 2. Putting it in a strong magnetic field opposite its own 3. Increasing the temperature. Kinds of magnets • Some magnets, called ferromagnets, are made of iron, nickel, cobalt, or mixtures of those metals. • Another kind of magnet is the electromagnet. This is a magnet made by an electric current. • Temporary magnets are made from materials that are easy to magnetize. But they tend to lose their magnetization easily. • Permanent magnets are difficult to magnetize, but tend to keep their magnetic properties longer. Earth’s Magnetic Field • The Earth behaves as if it has a bar magnet running through its center. • The point of a compass needle is attracted to the south pole of a magnet. Opposite poles of magnets attract each other. • A compass needle points north because the magnetic pole of Earth that is closest to the geographic North Pole is a magnetic south pole. Earth’s Magnetic Field • Scientists think that the Earth’s magnetic field is made by the movement of electric charges in the Earth’s core. • Earth’s magnetic field plays a part in making auroras. An aurora is formed when charged particles from the sun hit oxygen and nitrogen atoms in the air. Electromagnetism • Physicist Hans Oersted discovered that electric current produces a magnetic field. • Also discovered that direction of field depends on direction of current. • Electromagnetism—the interaction between electricity and magnetism. Using Electromagnetism • A solenoid is a coil of wire that produces a magnetic field when carrying an electric current. • The strength of the magnetic field increases as more loops per meter are used and increasing the electric current. Electromagnets • An electromagnet is made up of a solenoid wrapped around an iron core. • Electromagnets are very useful because they can be turned on and off as needed. The solenoid has a field only when there is electric current in it. Electric Motors/Galvanometer • Electric Motor: a device that converts electrical energy into mechanical energy. • Galvanometer: measures current, it has an electromagnet and needle on a pivot b/t the poles of permanent magnet. Electromagnetic Induction • The process by which an electric current is made is by changing a magnetic field is called electromagnetic induction. • An electric generator:uses electromagnetic induction to change mechanical energy into electrical energy. Alternating Current • The electric current produced by the generator changes direction each time the coil makes a half turn. Because the electric current changes direction, it is an alternating current. • The energy that generators convert into electrical energy comes from different sources such as fossil fuels and nuclear energy. Transformers • A transformer increases or decreases the voltage of alternating current. • The number of loops in the primary and secondary coils of a transformer determines whether it increases or decreases the voltage. • The electric current that brings electrical energy to your home is usually transformed three times.